Anonymizing apparatus and anonymizing method

ABSTRACT

An anonymizing apparatus includes a processor configured to receive an instruction from a first apparatus, anonymize an anonymized part of a first data based on a type of an application program that causes the first apparatus to send the instruction, and transmit the anonymized first data to the first apparatus.

CROSS-REFERENCE TO RELATED APPLICATION

This application is based upon and claims the benefit of priority of the prior Japanese Patent Application No. 2012-144591, filed on Jun. 27, 2012, the entire contents of which are incorporated herein by reference.

FIELD

The embodiments discussed herein are related to data anonymity.

BACKGROUND

There is an integrating device that acquires anonymized data from a certain device such as a server, causes the acquired data to be stored in a storage device for each of types of the data and integrates the acquired data for each of the types of the data. In response to a request provided by another device, the integrating device acquires the anonymized data from the storage device, releases anonymity of an item of the anonymized data and transmits the data including the data item of which the anonymity has been released to the other device that has requested the data. The other device that receives the data including the data item of which the anonymity has been released uses details of the data item to execute predetermined analysis.

FIG. 17 is a diagram illustrating an example of a system that includes the conventional integrating device. A system 99 illustrated in FIG. 17 includes devices 90 a, 90 b, 92 a, 92 b and 92 c and an integrating device 91. The devices 90 a and 90 b are connected to the integrating device 90 through a network 98. In addition, the devices 92 a, 92 b and 92 c are connected to the integrating device 91 through a network 97. The devices 90 a and 90 b and the integrating device 91 communicate with each other, while the devices 92 a, 92 b and 92 c and the integrating device 91 communicate with each other.

The devices 90 a and 90 b have databases (DBs) 93 a and 93 b, respectively, while data that indicates purchase histories of purchasers who have purchased pets such as animals at pet shops is registered in the DBs 93 a and 93 b. FIG. 18 illustrates an example of data structures of the DBs 93 a and 93 b. A table is registered in the DBs 93 a and 93 b illustrated in FIG. 18 for each of types of data. Each of records of a table illustrated in FIG. 18 includes a “name” item, an “age” item, a “shop name” item and a “type” item. In the “name” item, the names of the purchasers of the pets are registered. The names of the purchasers of the pets are data that specifies the individuals. In the “age” item, the ages of the purchasers are registered. In the “shop name” item, the names of the shops at which the purchasers have purchased the pets are registered. In the “type” item, the types of the purchased pets are registered. The table illustrated in FIG. 18 has a “type ID” item in which a type ID that is an identification (ID) used to identify the type of the data registered in the table is registered. As described above, the data that indicates the purchase histories of the purchasers of the pets is registered in the table illustrated in FIG. 18. A type ID “1” that identifies the data indicating the purchase histories of the purchasers of the pets is registered in the “type ID” item of the table illustrated in FIG. 18.

The devices 90 a and 90 b acquire data of one or more records from the DBs 93 a and 93 b and make the acquired data anonymous. For example, the devices 90 a and 90 b use a predetermined key and a predetermined hash function to calculate hash values for the acquired data of items of the records and make the data anonymous. Then, the devices 90 a and 90 b add the type ID registered in the “type ID” item of the table to the anonymized data. Subsequently, the devices 90 a and 90 b transmit the data having the type ID added thereto to the integrating device 91. It is assumed that the system 99 includes a device (not illustrated) other than the devices 90 a and 90 b, while the device (not illustrated) makes various types of data anonymous using the same method and transmits the data to the integrating device 91.

The integrating device 91 integrates data for each of types of data. The integrating device 91 has tables 91 a, 91 b, . . . corresponding to the types of the data. FIG. 19 illustrates an example of data structures of the tables included in the conventional integrating device 91. The table 91 a illustrated in 19 is a table in which hash values of the data that is of a type identified by the type ID “1” or indicates the purchase histories of the purchasers of the pets are registered.

When receiving data having a type ID added thereto from the devices 90 a and 90 b and the aforementioned device that is not illustrated, the integrating device 91 acquires the type ID added to the received data. Then, the integrating device 91 registers the received data in a table that is among the tables 91 a, 91 b, . . . corresponding to type IDs and corresponds to the acquired type ID. For example, when receiving data with the type ID “1” added thereto from the device 90 a, the integrating device 91 registers the received data in the table 91 a that is among the tables 91 a, 91 b, . . . corresponding to the type IDs and corresponds to the type ID “1”. Thus, the data that is made anonymous and indicates the purchase histories of the purchasers of the pets is registered in the table 91 a corresponding to the type ID “1”.

In addition, when receiving, from the devices 92 a, 92 b and 92 c, data transmission instructions that include a type ID of data be analyzed and items to be analyzed, the integrating device 91 executes the following process. That is, the integrating device 91 acquires data of all records registered in a table corresponding to the type ID included in the received instructions. For example, when the type ID included in the received instructions is “1”, the integrating device 91 acquires data of all records registered in the table 91 a corresponding to the type ID “1”.

Then, the integrating device 91 releases anonymity of data that is included in the acquired data of all the records and has been registered in the items that are to be analyzed and are included in the received instructions. For example, the integrating device 91 uses the same key as a key used for making the data anonymous and the same hash function as a hash function used for making the data anonymous and thereby restores, to the original data, hash values that are included in data of acquired hash values and have been registered in the items to be analyzed. Then, the integrating device 91 transmits the data of which the anonymity has been released and that has been registered in the items to be analyzed to the devices 92 a, 92 b and 92 c that have transmitted the instructions.

For example, when receiving, from the device 92 a, a data transmission instruction that includes a type ID “1” of data to be analyzed and the “type” item to be analyzed, the integrating device 91 executes the following process. That is, the integrating device 91 acquires data of hash values of all records registered in the table 91 a corresponding to the type ID “1” and restores, to the original data, hash values that are included in the acquired data of the hash values and have been registered in the “type” item to be analyzed. FIG. 20 illustrates an example of data of hash values when the hash values of the “type” item to be analyzed are restored to the original data by the conventional integrating device 91. For example, when acquiring the data of the hash values of all the records registered in the table 91 a corresponding to the type ID “1”, the integrating device 91 restores a hash value “A01” of the “type” item to be analyzed to the original data “bird”, as illustrated in the example of FIG. 20. In addition, the integrating device 91 restores a hash value “B02” of the “type” item to be analyzed to the original data “dog”. The integrating device 91 restores a hash value “C03” of the “type” item to be analyzed to the original data “turtle”. The integrating device 91 restores a hash value “D04” of the “type” item to be analyzed to the original data “cat”. Then, the integrating device 91 transmits, to the device 92 a, the original data illustrated in FIG. 20 and restored from the hash values of the “type” item to be analyzed.

When receiving, from the device 92 b, a data transmission instruction that includes the type ID “1” of the data to be analyzed and the “shop name” item to be analyzed, the integrating device 91 executes the following process. That is, the integrating device 91 acquires the data of the hash values of all the records registered in the table 91 a corresponding to the type ID “1” and restores, to the original data, hash values that are included in the acquired data of the hash values and have been registered in the “shop name” item to be analyzed. FIG. 21 illustrates an example of data of hash values when the hash values of the “shop name” item to be analyzed are restored to the original data by the conventional integrating device 91. For example, when acquiring the data of the hash values of all the records registered in the table 91 a corresponding to the type ID “1”, the integrating device 91 restores a hash value “00” of the “shop name” item to be analyzed to the original data “shop A”, as illustrated in the example of FIG. 21. In addition, the integrating device 91 restores hash values “xx” of the “shop name” item to be analyzed to the original data “shop B”. The integrating device 91 restores a hash value “ΔΔΔ” of the “shop name” item to be analyzed to the original data “shop D”. Then, the integrating device 91 transmits, to the device 92 b, the original data illustrated in FIG. 21 and restored from the hash values of the “shop name” item to be analyzed.

When receiving, from the device 92 c, a data transmission instruction that includes the type ID “1” of the data to be analyzed and the “age” item to be analyzed, the integrating device 91 executes the following process. That is, the integrating device 91 acquires the data of the hash values of all the records registered in the table 91 a corresponding to the type ID “1” and restores, to the original data, hash values that are included in the acquired data of the hash values and have been registered in the “age” item to be analyzed. FIG. 22 illustrates an example of data of hash values when the hash values of the “age” item to be analyzed are restored to the original data by the conventional integrating device 91. For example, when acquiring the data of the hash values of all the records registered in the table 91 a corresponding to the type ID “1”, the integrating device 91 restores a hash value “12” of the “age” item to be analyzed to the original data “22”, as illustrated in the example of FIG. 22. In addition, the integrating device 91 restores a hash value “1” of the “age” item to be analyzed to the original data “32”. The integrating device 91 restores a hash value “24” of the “age” item to be analyzed to the original data “44”. The integrating device 91 restores a hash value “33” of the “age” item to be analyzed to the original data “52”. Then, the integrating device 91 transmits, to the device 92 c, the original data illustrated in FIG. 22 and restored from the hash values of the “age” item to be analyzed.

The devices 92 a, 92 b and 92 c are devices that execute various types of analysis. For example, the device 92 a uses the data indicating the purchase histories of the purchasers of the pets and executes an application for counting the number of purchased pets for each of the types of the pets. The device 92 a executes the application and thereby transmits, to the integrating device 91, the data transmission instruction that includes the type ID “1” of data to be analyzed and the item “type” to be analyzed. When receiving, from the integrating device 91, the original data restored from the hash values of the item “type” to be analyzed, the device 92 a counts the number of purchased pets for each of the types of the pets.

The device 92 b uses the data indicating the purchase histories of the purchasers of the pets and executes an application for counting the number of purchased pets for each of the pet shops. The device 92 b executes the application and thereby transmits, to the integrating device 91, the data transmission instruction that includes the type ID “1” of the data to be analyzed and the “shop name” item to be analyzed. When receiving, from the integrating device 91, the original data restored from the hash values of the “shop name” item to be analyzed, the device 92 b counts the number of purchased pets for each of the pet shops.

The device 92 c uses the data indicating the purchase histories of the purchasers of the pets and executes an application for counting the number of purchased pets for each of the ages of the purchasers. The device 92 c executes the application and thereby transmits, to the integrating device 91, the data transmission instruction that includes the type ID “1” of the data to be analyzed and the “age” item to be analyzed. When receiving, from the integrating device 91, the original data restored from the hash values of the “age” item to be analyzed, the device 92 c counts the number of purchased pets for each of the ages of the purchasers.

In addition, there is a technique for using first key information to generate a certain hash value for information that is included in personal information and identifies the individual, using second key information to generate a new hash value for the generated certain hash value, and making anonymous the information identifying the individual.

For example, Japanese Laid-open Patent Publication No. 2010-237811, Japanese Laid-open Patent Publication No. 2005-301978, Japanese Laid-open Patent Publication No. 09-245043, Japanese Laid-open Patent Publication No. 2008-22145, Japanese Laid-open Patent Publication No. 04-273378 are issued.

The aforementioned system, however, has a problem that it is easy to interpret anonymized data. For example, when the devices 92 a to 92 c have the three data items illustrated in the examples of FIGS. 20 to 22, respectively, and the data items flow out of the devices 92 a to 92 c, a person may be identified by the following method on the basis of the data items that have flowed out of the devices 92 a to 92 c. That is, information that is registered in the “name” item and common to the three data items and is, for example, records in which a name “A12345” is registered is identified from the three data items, and information of which anonymity is released and that is “32”, “shop B” and “dog” is identified from the identified records. Thus, the fact that a person indicated by the information including the anonymous name “A12345” is 32 years old and has purchased a dog at the shop B is identified. Thus, it is easy to identify the person on the basis of the information indicating that the person is 32 years old and has purchased the dog at the shop B. The aforementioned system, therefore, has the problem that it is easy to interpret anonymized data.

A method for applying a technique for making anonymous information identifying an individual to the aforementioned system and making a purchaser's name registered in the “name” item anonymous may be considered. In this method, a hash value is generated using first key information for information of the name of a purchaser, and a new hash value is generated using second key information for the generated hash value. Even if this method is used, however, a record in which a newly generated hash value is registered may be identified from a plurality of data items transmitted from the integrating device, and information of which anonymity is released may be identified from the identified record. Thus, even if this method is used, there is a problem that it is easy to interpret anonymized data.

SUMMARY

According to an aspect of the invention, an anonymizing apparatus includes a processor configured to receive an instruction from a first apparatus, anonymize an anonymized part of a first data based on a type of an application program that causes the first apparatus to send the instruction, and transmit the anonymized first data to the first apparatus.

The object and advantages of the invention will be realized and attained by means of the elements and combinations particularly pointed out in the claims.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, as claimed.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 illustrates an example of the configuration of a system that includes a anonymity providing device according to a first embodiment;

FIG. 2 illustrates an example of data structures of DBs;

FIG. 3 illustrates an example of data structures of tables registered in a DB included in the anonymity providing device;

FIG. 4 illustrates an example of a data structure of a table included in the anonymity providing device;

FIG. 5 illustrates an example of data when hash values of a “type” item to be analyzed are restored to the original data by the anonymity providing device;

FIG. 6 illustrates an example of data when hash values of a “shop name” item to be analyzed are restored to the original data by the anonymity providing device;

FIG. 7 illustrates an example of data when hash values of an “age” item to be analyzed are restored to the original data by the anonymity providing device;

FIG. 8 is a flowchart of a procedure for a anonymity providing process;

FIG. 9 illustrates an example of the configuration of a system that includes a anonymity providing device according to a second embodiment;

FIG. 10 illustrates an example of data structures of DBs;

FIG. 11 illustrates an example of a data structure of a table registered in the DB included in the anonymity providing device;

FIG. 12 illustrates an example of a data structure of group data;

FIG. 13 illustrates an example of data when hash values of name data are generated by the anonymity providing device using different keys, and hash values of a “sales amount” item to be analyzed are restored to the original data;

FIG. 14 illustrates an example of a result of analysis;

FIG. 15 is a flowchart of a procedure for a anonymity providing process;

FIG. 16 illustrates a computer that executes a anonymity providing program;

FIG. 17 illustrates an example of a system that includes an integrating device;

FIG. 18 illustrates an example of data structures of DBs;

FIG. 19 illustrates an example of data structures of tables included in the integrating device;

FIG. 20 illustrates an example of data of hash values when the hash values of a “type” item to be analyzed are restored to the original data by the integrating device;

FIG. 21 illustrates an example of data of hash values when the hash values of a “shop name” item to be analyzed are restored to the original data by the integrating device; and

FIG. 22 illustrates an example of data of hash values when the hash values of an “age” item to be analyzed are restored to the original data by the integrating device.

DESCRIPTION OF EMBODIMENTS

Hereinafter, embodiments of a anonymity providing device disclosed herein, a anonymity providing program disclosed herein and a anonymity providing method disclosed herein are described in detail with reference to the accompanying drawings. A technique disclosed herein is not limited to the embodiments. The embodiments may be combined without a discrepancy between details of processes.

First Embodiment

A anonymity providing device 10 according to the first embodiment is described below. FIG. 1 illustrates an example of the configuration of a system that includes the anonymity providing device 10 according to the first embodiment. A system 1 illustrated in the example of FIG. 1 has the anonymity providing device 10 and devices 11 a, 11 b, 12 a, 12 b and 12 c. In addition, the system 1 has a device (not illustrated) that has the same functions as the devices 11 a and 11 b. The devices 11 a and 11 b, the device (not illustrated) and the anonymity providing device 10 are connected to each other through a network 13. The anonymity providing device 10 and the devices 12 a, 12 b and 12 c are connected to each other through a network 14. The devices 11 a, 11 b and the anonymity providing device 10 communicate with each other. The anonymity providing device 10 and the devices 12 a, 12 b and 12 c communicate with each other.

The devices 11 a and 11 b have DBs 15 a and 15 b, respectively, while data that indicates purchase histories of purchasers who have purchased pets such as animals at pet shops is registered in the DBs 15 a and 15 b. FIG. 2 illustrates an example of data structures of the DBs 15 a and 15 b. A table is registered in each of the DBs 15 a and 15 b illustrated in the example of FIG. 2 for each of types of data. Records of a table illustrated in the example of FIG. 2 each include a “name” item, an “age” item, a “shop name” item and a “type” item. In the “name” item, the names of purchasers of pets are registered. The names of the purchasers of the pets are data that identifies the individuals. In the “age” item, the ages of the purchasers are registered. In the “shop name” item, the names of shops at which the purchasers have purchased the pets are registered. In the “type” item, the types of the purchased pets are registered. The table illustrated in the example of FIG. 2 has a “type ID” item in which a type ID that is an ID identifying the type of the data registered in the DBs 15 a and 15 b is registered. As described above, the data that indicates the purchase histories of the purchasers of the pets is registered in the tables of the DBs 15 a and 15 b illustrated in the example of FIG. 2. A type ID “1” that identifies the data indicating the purchase histories of the purchasers of the pets is registered in the “type ID” items of the tables of the DBs 15 a and 15 b illustrated in the example of FIG. 2.

The devices 11 a and 11 b acquire data of one or more records from the tables of the DBs 15 a and 15 b and make the acquired data anonymous. For example, the devices 11 a and 11 b use a predetermined key and a predetermined hash function to calculate hash values for data of items of the acquired records, replace the data of the items of the acquired records with data of the calculated hash values and make the acquired data anonymous. Then, the devices 11 a and 11 b add the type ID registered in the “type ID” items of the tables of the DBs 15 a and 15 b to the anonymized data. Subsequently, the devices 11 a and 11 b transmit the data having the type ID added thereto to the anonymity providing device 10. As described above, it is assumed that the system 1 includes the device (not illustrated) that makes various types of data anonymous using the same method as described above and transmits the anonymized data to the anonymity providing device 10.

The anonymity providing device 10 includes an input unit 16, a communicating unit 17, a storage unit 18 and a control unit 19.

The input unit 16 causes various types of information to be input to the control unit 19. For example, the input unit 16 receives an instruction from a user and causes the received instruction to be input to the control unit 19. Examples of the input unit 16 are devices that receive an operation of the user and are a mouse and a keyboard.

The communicating unit 17 is an interface for executing communication between the anonymity providing device 10 and the other devices. For example, when receiving anonymized data from the devices 11 a and 11 b through the network 13, the communicating unit 17 transmits the received data to the control unit 19. When receiving, from a transmission control unit 19 d (described later), data that includes a anonymized data item identifying a person, the communicating unit 17 transmits the received data through the network 14 to a specified device among the devices 12 a to 12 c. In addition, when receiving, from the devices 12 a, 12 b and 12 c through the network 14, data transmission instructions that each include a type ID of data to be analyzed, an application ID and an item to be analyzed, the communicating unit 17 transmits the received instructions to the control unit 19.

The storage unit 18 stores various types of information. For example, the storage unit 18 stores a DB 18 a and a table 18 b.

Tables that correspond to types of data, respectively, are registered in the DB 18 a. FIG. 3 illustrates an example of data structures of the tables registered in the DB 18 a included in the anonymity providing device 10. FIG. 3 illustrates a plurality of tables 18 a_1, 18 a_2, . . . . The tables 18 a_1, 18 a_2, . . . each have a “type ID” item in which a type ID that indicates the type of registered data is registered. In the example of FIG. 3, hash values of data that is of a type indicated by a type ID “1” or indicates purchase histories of purchasers of pets are registered in the table 18 a_1.

Anonymized data that is transmitted from the devices 11 a and 11 b and the device (not illustrated) is registered by a registering unit 19 b (described later) in the tables registered in the DB 18 a. For example, when the data registered in the table illustrated in the example of FIG. 2 is made anonymous and transmitted from the devices 11 a and 11 b to the anonymity providing device 10, the anonymized data is registered in the table 18 a_1, as illustrated in the example of FIG. 3.

The table 18 b is a table in which keys that are used to generate hash values, and application IDs that identify applications, are associated with each other and registered. In the table 18 b, the different keys are associated with the plurality of application IDs, respectively, and the keys and the application IDs are registered. FIG. 4 illustrates an example of a data structure of the table 18 b included in the anonymity providing device 10. In the example of FIG. 4, the table 18 b has an “application” item and a “key” item. In the “application” item, application IDs are registered. In the “key” item, keys that are used to generate hash values are registered. FIG. 4 illustrates the case where an application ID “A” and a key “00001” are associated with each other and registered in the table 18 b.

The storage unit 18 is a semiconductor memory device such as a flash memory or a storage device such as a hard disk or an optical disc. The storage unit 18 is not limited to the memory device and the storage device and may be a random access memory (RAM) or a read only memory (ROM).

The control unit 19 has an internal memory that stores control data and a program in which process procedures of various types are defined. The control unit 19 executes various processes using the control data and the program. The control unit 19 has a receiving unit 19 a, the registering unit 19 b, a anonymity providing unit 19 c and the transmission control unit 19 d.

The receiving unit 19 a receives various types of information. For example, when anonymized data is transmitted from the communicating unit 17 to the control unit 19, the receiving unit 19 a receives the transmitted data. In addition, when data transmission instructions that each include a type ID of data to be analyzed, an application ID and an item to be analyzed are transmitted from the communicating unit 17 to the control unit 19, the receiving unit 19 a receives the transmitted instructions.

The registering unit 19 b registers various types of information. For example, when the receiving unit 19 a receives data having a type ID added thereto, the registering unit 19 b acquires the type ID added to the received data. Then, the registering unit 19 b searches the DB 18 a and determines whether or not a table that corresponds to the acquired type ID exists in the DB 18 a. If the table that corresponds to the acquired type ID exists, the registering unit 19 b registers the received data in the table that is among a plurality of tables registered in the DB 18 a and corresponds to the acquired type ID. For example, when receiving the data having the type ID “1” added thereto from the device 11 a, the anonymity providing device 10 registers the received data in the table 18 a_1 that is among the plurality of tables (illustrated in the example of FIG. 3) 18 a_1, 18 a_2, . . . and corresponds to the type ID “1”. Thus, the anonymized data that indicates the anonymous purchase histories of the purchasers of the pets is registered in the table 18 a_1 corresponding to the type ID “1”.

On the other hand, if the table that corresponds to the acquired type ID does not exist, the registering unit 19 b generates a new table and registers the acquired type ID in the “type ID” item of the generated table. In addition, the registering unit 19 b adds records for the number of records of the received data to the generated table and registers the data received by the receiving unit 19 a in the added records.

Every time the receiving unit 19 a receives data having a type ID added thereto, the registering unit 19 b executes the aforementioned process and registers the anonymized data in a table of the DB 18 a.

When the receiving unit 19 a receives the aforementioned data transmission instructions, the anonymity providing unit 19 c executes the following process. That is, the anonymity providing unit 19 c acquires the anonymized data registered in the table corresponding to the data type identified by the type ID included in the instructions. Then, the anonymity providing unit 19 c makes the anonymous name data included in the acquired data anonymous so that anonymous results are different for the types of applications (described later) that have provided the instructions.

A specific example is described below. For example, when receiving, from the devices 12 a, 12 b and 12 c, data transmission instructions that each include a type ID of data to be analyzed, an application ID and an item to be analyzed, the anonymity providing unit 19 c executes the following process. That is, the anonymity providing unit 19 c acquires the type ID, the application IDs and the items to be analyzed, which are included in the instructions.

Then, the anonymity providing unit 19 c searches the table 18 b and determines whether or not a key that corresponds to the acquired application ID exists in the table 18 b. If the key exists as a result of the search, the anonymity providing unit 19 c acquires the key corresponding to the acquired application ID from the table 18 b. For example, if the acquired application ID is “A”, the anonymity providing unit 19 c acquires the key “00001” from the table 18 b illustrated in the example of FIG. 4. On the other hand, if the key does not exist as the result of the search, the anonymity providing unit 19 c generates a new key that is not the same as the keys registered in the table 18 b. Then, the anonymity providing unit 19 c associates the acquired application ID and the generated key with each other and registers the acquired application ID and the generated key in the table 18 b.

Then, the anonymity providing unit 19 c searches the DB 18 a and determines whether or not a table that corresponds to a data type identified by the acquired type ID exists in the DB 18 a. If the table exists as a result of the search, the anonymity providing unit 19 c acquires data of all records of the table corresponding to the data type identified by the acquired type ID. For example, if the acquired type ID is “1”, the anonymity providing unit 19 c acquires data of all records registered in the table 18 a_1 that is among the plurality of tables registered in the DB 18 a illustrated in the example of FIG. 3 and corresponds to the type ID “1”.

Then, the anonymity providing unit 19 c uses the acquired or generated key and a predetermined hash function to generate hash values for a data item that is included in the acquired data of all the records and identifies persons. For example, the anonymity providing unit 19 c further generates hash values for anonymous name data. The name data is described as an example of the data identifying the persons, but is not limited to the data identifying the persons. As long as the hash values are generated for the data that identifies the persons and are an address, ID or the like of the person, the anonymity providing unit 19 c may further generate the hash values using the same method.

For example, if the acquired or generated key is “00001”, the anonymity providing unit 19 c uses the key “00001” and the predetermined hash function to generate a hash value “AAAAA for anonymous name data “azeid11”. In addition, the anonymity providing unit 19 c generates a hash value “BBBBB” for anonymous name data “A12345”. The anonymity providing unit 19 c generates a hash value “CCCCC” for anonymous name data “kdDsDD”. The anonymity providing unit 19 c generates a hash value “DDDDD” for anonymous name data “Kl3lls3Q”.

For example, if the acquired or generated key is “00002”, the anonymity providing unit 19 c uses the key “00002” and the predetermined hash function to generate a hash value “EEEEE” for the anonymous name data “azeid11”. In addition, the anonymity providing unit 19 c generates a hash value “FFFFF” for the anonymous name data “A12345”. The anonymity providing unit 19 c generates a hash value “GGGGG” for the anonymous name data “kdDsDD”. The anonymity providing unit 19 c generates a hash value “HHHHH” for the anonymous name data “Kl3lls3Q”.

If the acquired or generated key is “00003”, the anonymity providing unit 19 c uses the key “00003” and the predetermined hash function to generate a hash value “IIIII” for the anonymous name data “azeid111”. In addition, the anonymity providing unit 19 c generates a hash value “JJJJJ” for the anonymous name data “A12345”. The anonymity providing unit 19 c generates a hash value “KKKKK” for the anonymous name data “kdDsDD”. The anonymity providing unit 19 c generates a hash value “LLLLL” for the anonymous name data “Kl3lls3Q”.

Subsequently, the anonymity providing unit 19 c replaces the anonymized data item included in the acquired data of all the records and identifying the persons with the hash values. Thus, the data item that identifies the persons is made anonymous again. For example, if the aforementioned acquired or generated key is “00001”, the anonymity providing unit 19 c replaces the name data “azeid11” with the hash value “AAAAA”. In addition, the anonymity providing unit 19 c replaces the name data “A12345” with the hash value “BBBBB”. The anonymity providing unit 19 c replaces the name data “kdDsDD” with the hash value “CCCCC”. The anonymity providing unit 19 c replaces the name data “Kl3lls3Q” with the hash value “DDDDD”. In this manner, the anonymity providing unit 19 c uses the different keys for the types of the applications executed by the devices 12 a, 12 b and 12 c to generate the hash values for the anonymized data identifying the persons and replaces the data with the hash values. Thus, even if anonymized data that identify persons is the same, the anonymized data may be made anonymous again by the anonymity providing unit 19 c so that anonymous results are different for the types of the applications. Thus, generation of data that is common to the plurality of applications may be suppressed. The anonymity providing unit 19 c, therefore, may make it difficult to interpret anonymized data.

Then, the anonymity providing unit 19 c releases the anonymity of the data item that identifies the persons and is included in the data and has been replaced with the hash values and registered in the items that are to be analyzed and are included in the received instructions. For example, the anonymity providing unit 19 c executes the following process on the data including the data item replaced with the hash values and identifying the persons. That is, the anonymity providing unit 19 c uses the same key as the key used for the anonymity by the devices 11 a and 11 b and the device (not illustrated) and the same hash function as the hash function used for the anonymity and thereby restores the hash values of the items to be analyzed to the original data.

For example, when the receiving unit 19 a receives, from the device 12 a, a data transmission instruction that includes the type ID “1” of data to be analyzed, the application ID “A” and the item “type” to be analyzed, the anonymity providing unit 19 c executes the following process. That is, the anonymity providing unit 19 c restores, to the original data, hash values that have been registered in the “type” item to be analyzed and are among the hash values with which the data item that identifies the persons has been replaced. FIG. 5 illustrates an example of data when hash values of the “type” item to be analyzed are restored to the original data. For example, when acquiring data of hash values of all the records registered in the table 18 a_1 corresponding to the type ID “1”, the anonymity providing unit 19 c restores a hash value “A01” of the “type” item to be analyzed to the original data “bird”. In addition, the anonymity providing unit 19 c restores a hash value “B02” of the “type” item to be analyzed to the original data “dog”. The anonymity providing unit 19 c restores a hash value “C03” of the “type” item to be analyzed to the original data “turtle”. The anonymity providing unit 19 c restores a hash value “D04” of the “type” item to be analyzed to the original data “cat”.

When the receiving unit 19 a receives, from the device 12 b, a data transmission instruction that includes the type ID “1” of the data to be analyzed, the application ID “B” and the “shop name” item to be analyzed, the anonymity providing unit 19 c executes the following process. That is, the anonymity providing unit 19 c restores, to the original data, hash values that have been registered in the “shop name” item to be analyzed and are among the hash values with which the data item that identifies the persons has been replaced.

FIG. 6 illustrates an example of data when the hash values of the “shop name” item to be analyzed are restored to the original data by the anonymity providing unit 10. For example, when acquiring the data of the hash values of all the records registered in the table 18 a_1 corresponding to the type ID “1”, the anonymity providing unit 19 c restores a hash value “00” of the “shop name” item to be analyzed to the original data “shop A”, as illustrated in the example of FIG. 6. In addition, the anonymity providing unit 19 c restores hash values “xx” of the “shop name” item to be analyzed to the original data “shop B”. The anonymity providing unit 19 c restores a hash value “ΔΔΔ” of the “shop name” item to be analyzed to the original data “shop D”.

When the receiving unit 19 a receives, from the device 12 c, a data transmission instruction that includes the type ID “1” of the data to be analyzed, the application ID “C” and the “age” item to be analyzed, the anonymity providing unit 19 c executes the following process. That is, the anonymity providing unit 19 c restores, to the original data, hash values that have been registered in the “age” item” to be analyzed and are among the hash values with which the data item that identifies the persons has been replaced. FIG. 7 illustrates an example of data when the hash values of the “age” item to be analyzed are restored to the original data by the anonymity providing device 10. For example, when acquiring the data of the hash values of all the records registered in the table 18 a_1 corresponding to the type ID “1”, the anonymity providing unit 19 c restores a hash value “12” of the “age” item to be analyzed to the original data “22”, as illustrated in the example of FIG. 7. In addition, the anonymity providing unit 19 c restores a hash value “1” of the “age” item to be analyzed to the original data “32”. The anonymity providing unit 19 c restores a hash value “24” of the “age” item to be analyzed to the original data “44”. The anonymity providing unit 19 c restores a hash value “33” of the “age” item to be analyzed to the original data “52”.

The transmission control unit 19 d controls the anonymity providing device 10 so as to cause the anonymity providing device 10 to transmit data including a data item identifying a person and made anonymous by the anonymity providing unit 19 c again to a device that executes an application that has provided an instruction to transmit the data. Specifically, the transmission control unit 19 d transmits, to the communicating unit 17, data including a data item of which anonymity has been released in order to transmit the data to the device that has transmitted the instruction. For example, the transmission control unit 19 d transmits, to the communicating unit 17, the original data (illustrated in FIG. 5) restored from the hash values of the “type” item to be analyzed in order to transmit the original data to the device 12 a. In addition, the transmission control unit 19 d transmits, to the communicating unit 17, the original data (illustrated in FIG. 6) restored from the hash values of the “shop name” item to be analyzed in order to transmit the original data to the device 12 b. The transmission control unit 19 d transmits, to the communicating unit 17, the original data (illustrated in FIG. 7) restored from the hash values of the “age” item to be analyzed in order to transmit the original data to the device 12 c.

The control unit 19 is a processor such as an integrated circuit (an application specific integrated circuit (ASIC) or a field programmable gate array (FPGA), for example) or an electronic circuit (a central processing unit (CPU) or a micro processing unit (MPU), for example).

The devices 12 a, 12 b and 12 c are devices that execute various types of analysis. For example, the device 12 a uses the data indicating the purchase histories of the purchasers of the pets and executes the application for counting the number of pets for each of the types of the pets. The device 12 a executes the application and thereby transmits, to the anonymity providing device 10, the data transmission instruction that includes the type ID “1” of the data to be analyzed, the application ID “A” and the “type” item to be analyzed. In addition, when receiving, from the anonymity providing device 10, the original data restored from the hash values of the item “type” to be analyzed, the device 12 a counts the number of purchased pets for each of the types of the purchased pets.

The device 12 b uses the data indicating the purchase histories of the purchasers of the pets and executes the application for counting the number of pets for each of the pet shops. The device 12 b executes the application and thereby transmits, to the anonymity providing device 10, the data transmission instruction that includes the type ID “1” of the data to be analyzed, the application ID “B” and the “shop name” item to be analyzed. In addition, when receiving, from the anonymity providing device 10, the original data restored from the hash values of the “shop name” item to be analyzed, the device 12 b counts the number of purchased pets for each of the pet shops.

The device 12 c uses the data indicating the purchase histories of the purchasers of the pets and executes the application for counting the number of pets for each of the ages of the purchasers. The device 12 c executes the application and thereby transmits, to the anonymity providing device 10, the data transmission instruction that includes the type ID “1” of the data to be analyzed, the application ID “C” and the “age” item to be analyzed. In addition, when receiving, from the anonymity providing device 10, the original data restored from the hash values of the “age” item to be analyzed, the device 12 c counts the number of purchased pets for each of the ages of the purchasers of the pets.

Next, a process that is executed by the anonymity providing device 10 according to the present embodiment is described. FIG. 8 is a flowchart of a procedure for the anonymity providing process. The anonymity providing process is executed when the anonymity providing device 10 receives, from the device 12 a, 12 b or 12 c, a data transmission instruction that include a type ID of data to be analyzed, an application ID and an item to be analyzed.

As illustrated in FIG. 8, the anonymity providing unit 19 c acquires the type ID included in the instruction (in S101). Then, the anonymity providing unit 19 c acquires the application ID included in the instruction (in S102). The anonymity providing unit 19 c acquires the item that is to be analyzed and is included in the instruction (in S103).

Then, the anonymity providing unit 19 c searches the table 18 b in order to determine whether or not a key that corresponds to the acquired application ID exists in the table 18 b (in S104). Subsequently, the anonymity providing unit 19 c determines whether or not the key exists as a result of the search (in S105). If the key exists (Yes in S105), the anonymity providing unit 19 c acquires the key corresponding to the acquired application ID from the table 18 b (in S108). On the other hand, if the key does not exist (No in S105), the anonymity providing unit 19 c generates a new key that is not the same as the keys registered in the table 18 b (in S106). Then, the anonymity providing unit 19 c associates the acquired application ID and the generated key with each other and registers the acquired application ID and the generated key in the table 18 b (in S107).

After that, the anonymity providing unit 19 c searches the DB 18 a in order to determine whether or not a table that corresponds to a data type identified by the acquired type ID exists in the DB 18 a (in S109). Then, the anonymity providing unit 19 c determines whether or not the table exists as a result of the search (in S110). If the table does not exist (No in S110), the process is terminated. On the other hand, if the table exists (Yes in S110), the anonymity providing unit 19 c acquires data of all records of the table corresponding to the data type identified by the acquired type ID (in S111).

Then, the anonymity providing unit 19 c uses the acquired or generated key and the predetermined hash function to generate hash values for a anonymized data item that is, for example, name data and included in the acquired data of all the records and identifies persons (in S112).

Subsequently, the anonymity providing unit 19 c replaces the anonymized data item included in the acquired data of all the records and identifying the persons with the generated hash values (in S113). Then, the anonymity providing unit 19 c releases the anonymity of the data item that identifies the persons, has been made anonymous using the hash values and registered in the item that is included in the received instruction and is to be analyzed (in S114).

After that, the transmission control unit 19 d transmits, to the communicating unit 17, the data including the data that has been registered in the item to be analyzed and of which the anonymity has been released, in order to transmit the data to the device that has transmitted the instruction (in S115). Then, the transmission control unit 19 d terminates the process.

As described above, the anonymity providing device 10 according to the present embodiment uses the different keys for the types of the applications executed by the devices 12 a, 12 b and 12 c, generates the hash values for the anonymized data identifying the persons and replaces the anonymized data identifying the persons with the generated hash values. Thus, the anonymity providing device 10 may make the same anonymized data identifying persons anonymous so as to obtain different anonymous results for the types of the applications. Since the anonymity providing device 10 may make the same anonymized data identifying the persons anonymous so as to obtain the different anonymous results for the applications, generation of anonymized data that identifies persons and is common to the applications may be suppressed. The anonymity providing device 10, therefore, may make it difficult to interpret anonymized data.

The anonymity providing device 10 may use the following method to restore, to the original data, data that includes a anonymized data item identifying persons and replaced with hash values. That is, the anonymity providing device 10 may restore the data to the original data using the same key as a key registered in the table 18 b and a key used to make data anonymous by the devices 11 a and 11 b and the device (not illustrated).

Second Embodiment

The second embodiment is described below. The second embodiment describes the case where when the same data items exist in anonymized data that is included in all records acquired from the DB 18 a and identifies persons, the same data items are made anonymous so that anonymous results are different from each other.

FIG. 9 illustrates an example of the configuration of a system that includes a anonymity providing device 20 according to the second embodiment. As illustrated in FIG. 9, a system 2 includes devices 21 a, 21 b, 22 a, 22 b and 22 c and the anonymity providing device 20 instead of the devices 11 a, 11 b, 12 a, 12 b and 12 c and the anonymity providing device 10, which are described in the first embodiment. Thus, the system 2 is different in the aforementioned point from the system 1 described in the first embodiment. Parts that have the same functions as those described in the first embodiment are indicated by the same reference numerals and symbols as those described in the first embodiment, and a description thereof is omitted.

The devices 21 a and 21 b have DBs 23 a and 23 b, respectively, while data that indicates purchase histories of purchasers who have purchased pets such as animals at pet shops is registered in the DBs 23 a and 23 b. FIG. 10 illustrates an example of data structures of the DBs 23 a and 23 b. A table is registered for each of types of data in each of the DBs 23 a and 23 b illustrated in the example of FIG. 10. A “name” item, a “date” item, a “shop name” item and a “sales amount” item are included in each of records of a table illustrated in the example of FIG. 10. Dates on which the purchasers have purchased the pets are registered in the “date” item. Amounts of money paid for the pets by the purchasers are registered in the “sales amount” item. In addition, the table illustrated in the example of FIG. 10 includes a “type ID” item in which a type ID that identifies the type of data registered in each of the DBs 23 a and 23 b is registered. As described above, the data that indicates the purchase histories of the purchasers of the pets is registered in the table (illustrated in the example of FIG. 10) of each of the DBs 23 a and 23 b. The data has the “name” item, the “date” item, the “shop name” item and the “sales amount” item. A type ID “11” is registered in the “type ID” item of the table of each of the DBs 23 a and 23 b illustrated in the example of FIG. 10. The type ID “11” identifies the data that includes the “name” item, the “date” item, the “shop name” item and the “sales amount” item and indicates the purchase histories of the purchasers of the pets.

The devices 21 a and 21 b acquire data of one or more records from the DBs 23 a and 23 b and make the acquired data anonymous. For example, the devices 21 a and 21 b use a predetermined key and a predetermined hash function to calculate hash values for the acquired data of items of the records, replace the acquired data of the items of the records with data of the calculated hash values, and make the acquired data anonymous. Then, the devices 21 a and 21 b add the type ID registered in the “type ID” item of the table of the DBs 23 a and 23 b to the anonymized data. Subsequently, the devices 21 a and 21 b transmit the data having the type ID added thereto to the anonymity providing device 20. It is assumed that the system 2 includes the devices 21 a and 21 b and another device (not illustrated) that makes various types of data anonymous using the same method as described above and transmits the anonymized data to the anonymity providing device 20.

The DB 18 a according to the second embodiment is described below. FIG. 11 illustrates an example of data structures of tables registered in the DB 18 a included in the anonymity providing device 20. FIG. 11 illustrates a plurality of tables 18 a_3, 18 a_4, . . . . The tables 18 a_3, 18 a_4, . . . each have a “type ID” item in which a type ID that identifies the type of registered data is registered. In the example of FIG. 11, hash values of data that is of a type identified by the type ID “11” or has the aforementioned items and indicates the purchase histories of the purchasers of the pets are registered in the table 18 a_3.

Anonymized data that is transmitted from the devices 21 a and 21 b and the device (not illustrated) is registered by the registering unit 19 b in the tables registered in the DB 18 a. For example, when data registered in the table illustrated in the example of FIG. 10 is made anonymous and transmitted from the devices 21 a and 21 b to the anonymity providing device 20, the anonymized data is registered in the table 18 a_3, as illustrated in the example of FIG. 11.

A control unit 24 has an internal memory for storing control data and a program in which process procedures of various types are defined. The control unit 24 executes various processes using the control data and the program. As illustrated in FIG. 9, the control unit 24 has the receiving unit 19 a, the registering unit 19 b, a anonymity providing unit 24 a and the transmission control unit 19 d.

When the receiving unit 19 a receives the aforementioned data transmission instructions, the control unit 24 executes the following process. That is, the anonymity providing unit 24 a acquires anonymized data registered in the table corresponding to the data type identified by the type ID included in the instructions. Then, the anonymity providing unit 24 a makes anonymous name data included in the acquired data anonymous so that anonymous results are different for the types of the aforementioned applications that have provided the instructions.

A specific example is described below. For example, when receiving, from the device 22 a, 22 b or 22 c, a data transmission instruction that includes a type ID of data to be analyzed, an application ID and an item to be analyzed, the anonymity providing unit 24 a executes the following process. That is, the anonymity providing unit 24 a acquires the type ID, the application ID and the item to be analyzed, which are included in the instruction.

Then, the anonymity providing unit 24 a searches the table 18 b in order to determine whether or not a key that corresponds to the acquired application ID exists in the table 18 b. If the key exists as a result of the search, the anonymity providing unit 24 a acquires the key corresponding to the acquired application ID from the table 18 b. For example, if the acquired application ID is “A”, the anonymity providing unit 24 a acquires the key “00001” from the table 18 b illustrated in the example of FIG. 4. On the other hand, if the key does not exist as the result of the search, the anonymity providing unit 24 a generates a new key that is not the same as the keys registered in the table 18 b. Then, the anonymity providing unit 24 a associates the acquired application ID and the generated key with each other and registers the acquired application ID and the generated key in the table 18 b.

Subsequently, the anonymity providing unit 24 a searches the DB 18 a in order to determine whether or not a table corresponding to the data type identified by the acquired type ID exists in the DB 18 a. If the table exists in the DB 18 a as a result of the search, the anonymity providing unit 24 a acquires data of all records of the table corresponding to the data type identified by the acquired type ID. If the acquired type ID is “11”, the anonymity providing unit 24 a acquires data of all records registered in the table 18 a_3 corresponding to the type ID “11” from the plurality of tables registered in the DB 18 a illustrated in the example of FIG. 11.

After that, the anonymity providing unit 24 a determines whether or not a plurality of the same data items exist in anonymized data that is included in the acquired data of all the records and identifies persons. For example, when acquiring the data of all the records registered in the table 18 a_3, the anonymity providing unit 24 a determines that a plurality of the same data items “A12345” exist in the anonymized data that identifies the persons. If the plurality of the same data items exist, the anonymity providing unit 24 a executes the following process. That is, the anonymity providing unit 24 a uses the acquired or generated key and a predetermined hash function to generate hash values for data other than the same data items included in the anonymized data identifying the persons. For example, when determining that the plurality of the same data items “A12345” exist, the anonymity providing unit 24 a calculates a hash value “j2a9f2e” for the anonymized data “azeid11” identifying a person. In addition, the anonymity providing unit 24 a calculates a hash value “13kksow” for the anonymized data “kdDsDD” identifying a person.

Then, the anonymity providing unit 24 a selects a single record from among a plurality of unselected records in which the same data items determined to exist have been registered. For example, when determining that the same data items “A12345” exist, the anonymity providing unit 24 a selects an unselected second record from among the second and fourth records that are among all the records and in which “A12345” has been registered. Then, the anonymity providing unit 24 a specifies an offset that indicates a relative position of the selected record to all the acquired records. An example of the offset is a value that indicates the order that the selected record is arranged. For example, if the second record is selected, the anonymity providing unit 24 a specifies an offset “2”. Then, the anonymity providing unit 24 a uses the acquired or generated key and the predetermined hash function to generate a hash value for the same data item of the selected record. For example, if the second record is selected, the anonymity providing unit 24 a uses the acquired or generated key and the predetermined hash function to generate a hash value “a12345” for the same data item “A12345” of the selected record.

Then, the anonymity providing unit 24 a determines whether or not an unselected record exists among the plurality of records in which the same data items determined to exist have been registered. If the unselected record exists, the anonymity providing unit 24 a selects the single unselected record. For example, if the anonymity providing unit 24 a determines that the same data items “A12345” exist, the anonymity providing unit 24 a selects the unselected fourth record from among the second and fourth records that are among all the records and in which “A12345” has been registered. Then, the anonymity providing unit 24 a specifies an offset that indicates a relative position of the selected records to all the acquired records. For example, if the fourth record is selected, the anonymity providing unit 24 a specifies an offset “4”. Then, the anonymity providing unit 24 a generates a new key that is not the same as the keys registered in the table 18 b and a generated key if the generated key exists. Then, the anonymity providing unit 24 a uses the generated new key and the predetermined hash function to generate a hash value for the aforementioned same data item of the selected record. For example, if the fourth record is selected, the anonymity providing unit 24 a uses the generated new key and the predetermined hash function to execute the following process. That is, the anonymity providing unit 24 a generates a hash value “c94ersy” for the same data item “A12345” of the selected record. The anonymity providing unit 24 a repeatedly executes the process until an unselected record does not exist. Thus, if the same data items exist in anonymized data identifying persons, the anonymity providing device 20 may make the same data items anonymous so that anonymous results are different from each other.

If the anonymity providing unit 24 a determines that an unselected record does not exist, the anonymity providing unit 24 a generates a group ID and group data that includes the group ID and the specified offsets. FIG. 12 illustrates an example of a data structure of the group data. Group data illustrated in the example of FIG. 12 includes a group ID “AA” and offsets “2” and “4”.

If the anonymity providing unit 24 a determines that a plurality of the same data items do not exist in the anonymized data included in the acquired data of all the records and identifying the persons and generates the group data, the anonymity providing unit 24 a executes the following process. That is, the anonymity providing unit 24 a uses the acquired or generated key and the predetermined hash function to generate hash values for the data item included in the acquired data of all the records and identifying the persons, for example, to generate hash values for the anonymous name data. Although an example of the data that identifies the persons is the name data, the data that identifies the persons is not limited to the name data. The anonymity providing unit 24 a may further generate hash values using the same method as described above, as long as the hash values are generated for the data that identifies the persons and is addresses, IDs or the like of the persons.

Subsequently, the anonymity providing unit 24 a replaces the anonymized data item included in the acquired data of all the records and identifying the persons with the generated hash values. Thus, the data item that identifies the persons is made anonymous again. In this manner, the anonymity providing unit 24 a uses the different keys for the types of the applications executed by the devices 22 a, 22 b and 22 c, generates hash values for anonymized data identifying persons, and replaces the data with the hash values. Thus, even if anonymized data that identifies persons is the same, the anonymity providing unit 24 a may further make anonymous the anonymized data that identifies the persons so that anonymous results are different for the applications. Since the anonymity providing unit 24 a makes the same anonymized data identifying persons anonymous so as to obtain different anonymous results for the applications, generation of anonymized data that identifies a person and is common to the applications may be suppressed. Thus, the anonymity providing unit 24 a makes it difficult to interpret anonymized data.

Then, the anonymity providing unit 24 a releases the anonymity of the data that corresponds to the item included in the received instruction and to be analyzed and is included in the data that includes the data item identifying the persons and replaced with the hash values. For example, the anonymity providing unit 24 a executes the following process on the data that includes the data item identifying the persons and replaced with the hash values. That is, the anonymity providing unit 24 a uses the same key as the key used for the anonymity by the devices 21 a and 21 b and the device (not illustrated) and the same hash function as the hash function used for the anonymity and thereby restores the hash values of the item to be analyzed to the original data.

For example, when the receiving unit 19 a receives a data transmission instruction that includes the type ID “11” of data to be analyzed, the application ID “A” and the “sales amount” item to be analyzed, the anonymity providing unit 24 a executes the following process. That is, the anonymity providing unit 24 a restores, to the original data, hash values that are among data obtained by replacing a data item identifying persons with hash values and are included in the “sales amount” item to be analyzed. FIG. 13 illustrates an example of data when the anonymity providing device 20 generates hash values for name data using different keys and restores hash values of the “sales amount” item to be analyzed to the original data. For example, when acquiring data of hash values of all records registered in the table 18 a_3 corresponding to the type ID “11”, the anonymity providing unit 24 a restores a hash value “A01” of the “sales amount” item to be analyzed to the original data “200”, as illustrated in the example of FIG. 13. In addition, the anonymity providing unit 24 a restores a hash value “B02” of the “sales amount” item to be analyzed to the original data “100”. The anonymity providing unit 24 a restores a hash value “C03” of the “sales amount” item to be analyzed to the original data “300”. The anonymity providing unit 24 a restores a hash value “D04” of the “sales amount” item to be analyzed to the original data “500”.

The transmission control unit 19 d executes control in order to transmit data including a data item identifying persons and made anonymous again by the anonymity providing unit 24 a to a device that executes an application that has provided an instruction to transmit the data. Specifically, the transmission control unit 19 d transmits, to the communicating unit 17, data that includes data that has been registered in an item to be analyzed and of which the anonymity has been released, in order to transmit the data to the device that has transmitted the instruction. For example, the transmission control unit 19 d transmits, to the communicating unit 17, the data that is illustrated in FIG. 13 and includes the original data restored from the hash values. If the group data is generated by the anonymity providing unit 24 a, the transmission control unit 19 d transmits the generated group data to the communicating unit 17 in order to transmit the group data to the device that has transmitted the instruction.

The control unit 24 is processor such as an integrated circuit (an ASIC or an FPGA, for example) or an electronic circuit (a CPU or an MPU, for example).

The devices 22 a, 22 b and 22 c are devices that execute various types of analysis. For example, the device 22 a uses data indicating purchase histories of purchasers of pets and executes an application for counting a sales amount for each of the purchasers. The device 22 a executes the application and thereby transmits, to the anonymity providing device 20, a data transmission instruction that includes the type ID “11” of data to be analyzed, the application ID “A” and the “sales amount” item to be analyzed. In addition, when receiving, from the anonymity providing device 20, the original data restored from hash values of the “sales amount” item to be analyzed, the device 22 a counts a sales amount for each of the purchasers. Furthermore, when the group data is transmitted from the anonymity providing device 20, the device 22 a counts, as sales amounts of the same person, sales amounts indicated in the records of which the positions are indicated by the offsets included in the group data. Thus, even if different hash values are generated as results of making data anonymous again for the same person, the same person may be analyzed. For example, when the devices 22 a, 22 b and 22 c receive the group data illustrated in the example of FIG. 12 and the data illustrated in the example of FIG. 13, the devices 22 a, 22 b and 22 c count, as the sales amounts of the same person, the sales amounts “100” and “500” of the second and fourth records that are identified by the offsets “2, 4” and included in the data illustrated in the example of FIG. 13. FIG. 14 illustrates an example of an analysis result. The example of FIG. 14 indicates the case where a sales amount “600” is calculated as an analysis result of a sales amount of the person “a12345”.

Next, the flow of a process that is executed by the anonymity providing device 20 according to the present embodiment is described. FIG. 15 is a flowchart of a procedure for the anonymity providing process. The anonymity providing process is executed when the anonymity providing device 20 receives, from the device 22 a, 22 b or 22 c, a data transmission instruction that includes a type ID of data to be analyzed, an application ID and an item to be analyzed.

As illustrated in FIG. 15, after S111, the anonymity providing unit 24 a determines whether or not a plurality of the same data items exist in the anonymized data included in the acquired data of all the records and identifying the persons (in S201). If the same data items exist (Yes in S201), the anonymity providing unit 24 a executes the following process. That is, the anonymity providing unit 24 a uses the acquired or generated key and the predetermined hash function to generate a hash value for data that is included in the anonymized data identifying the persons and is not the same data items (in S202).

Subsequently, the anonymity providing unit 24 a selects a single unselected record from among a plurality of records in which the same data items determined to exist have been registered (in S203). Then, the anonymity providing unit 24 a specifies an offset that indicates a relative position of the selected record to all the acquired records (in S204). The anonymity providing unit 24 a uses the acquired or generated key and the predetermined hash function to generate a hash value for the aforementioned same data item of the selected record (in S205).

Then, the anonymity providing unit 24 a determines whether or not an unselected record exists among the plurality of records in which the same data items determined to exist have been registered (in S206). If the unselected record exists (Yes in S206), the anonymity providing unit 24 a selects the single unselected record (in S207). Then, the anonymity providing unit 24 a specifies an offset that indicates a relative position of the selected record to all the acquired records (in S208). Subsequently, the anonymity providing unit 24 a generates a new key that is not the same as the keys registered in the table 18 b and a generated key if the generated key exists (in S209). Then, the anonymity providing unit 24 a uses the generated new key and the predetermined hash function to generate a hash value for the same data item of the selected record (in S210). Then, the process returns to S206.

On the other hand, if the unselected record does not exist (No in S206), the anonymity providing unit 24 a generates a group ID (in S211). Then, the anonymity providing unit 24 a generates group data that includes the group ID and the specified offset or offsets (in S212). Then, the process proceeds to S113.

As described above, the anonymity providing device 20 according to the present embodiment uses the different keys for the types of the applications executed by the devices 22 a, 22 b and 22 c to generate hash values for anonymized data identifying persons and replaces the anonymized data identifying the persons with the hash values. Thus, even if anonymized data that identifies persons is the same, the anonymity providing device 20 may make anonymized data identifying the persons anonymous so as to obtain different anonymous results for the applications. Since the anonymity providing device 20 may make the same anonymized data identifying persons anonymous so as to obtain different anonymous results for the applications, generation of anonymized data that identifies persons and is common to the applications may be suppressed. The anonymity providing device 20, therefore, may make it difficult to interpret anonymized data.

In addition, if the same data items exist in anonymized data that identifies persons, the anonymity providing device 20 may make the same data items anonymous so as to obtain different anonymous results. Thus, the anonymity providing device 20 may make it difficult to interpret anonymized data.

The anonymity providing device 20 may use the following method to restore, to the original data, data that includes anonymized data identifying persons and replaced with hash values. That is, the anonymity providing device 20 may restore the data to the original data using the same key as a corresponding key registered in the table 18 b and a key used for anonymity by the devices 21 a, 21 b and the device (not illustrated).

Although the embodiments of the anonymity providing device disclosed herein are described above, the anonymity providing device disclosed herein may be achieved in other embodiments. The other embodiments are described below.

The examples in which the anonymity providing devices 10 and 20 are physical servers are described above. The anonymity providing device disclosed herein is not limited to the aforementioned devices. For example, a physical server may execute a virtual machine (VM). The VM may execute the same processes as the processes that are executed by the anonymity providing devices 10 and 20.

All or a part of the processes that are described above in the embodiments and automatically executed may be manually executed. In addition, all or a part of the processes that are described above in the embodiments and manually executed may be automatically executed using a known method.

The processes that are executed in steps of the processes described in the embodiments may be each divided or be combined on the basis of various loads and usage statuses. In addition, one or more steps of the processes may be omitted.

The orders of the processes that are executed in steps of the processes described in the embodiments may be changed on the basis of various loads and usage statuses.

The constituent elements of the devices illustrated in the drawings are functionally conceptual and may not be physically configured as illustrated in the drawings. Specifically, specific forms of division and integration of the devices are not limited to those illustrated in the drawings, and all or a part of the devices may be functionally or physically divided or integrated on an arbitrary basis on the basis of various loads and usage statuses.

The processes that are executed by the anonymity providing devices 10 and 20 described in the embodiments may be achieved by causing a computer system such as a personal computer or a workstation to execute a prepared program. An example of the computer that executes the anonymity providing program that has the same functions as the anonymity providing devices described in the embodiments or the management servers is described with reference to FIG. 16. FIG. 16 illustrates a computer 300 that executes the anonymity providing program.

As illustrated in FIG. 16, the computer 300 includes a central processing unit (CPU) 310, a read only memory (ROM) 320, a hard disk drive (HDD) 330, a random access memory (RAM) 340. The computer 300 has an input device 360 and a communicating device 370. The devices 310, 320, 330, 340, 360 and 370 are connected to each other through a bus 350.

A basic program such as an OS is stored in the ROM 320. A anonymity providing program 330 a that exhibits the functions of the receiving unit 19 a, registering unit 19 b, anonymity providing units 19 c and 24 a and transmission control unit 19 d is stored in the HDD 330 in advance. The anonymity providing program 330 a may be divided. The HDD 330 includes a DB and a table that correspond to the DB 18 a and the table 18 b, respectively.

The CPU 310 reads the anonymity providing program 330 a from the HDD 330 and executes the anonymity providing program 330 a.

Then, the CPU 310 reads the DB and the table and causes the DB and the table to be stored in the RAM 340. The CPU 310 executes the anonymity providing program 330 a using the DB stored in the RAM 340 and the table stored in the RAM 340. In this case, all data may not be stored in the RAM 340. Specifically, it is sufficient if data to be used for a process is stored in the RAM 340.

The anonymity providing program 330 a may not be stored in the HDD 330.

For example, the anonymity providing program 330 a may be stored in a “portable physical medium” that is inserted in the computer 300 and is a flexible disk (FD), a CD-ROM, a DVD, a magneto-optical disc, an IC card or the like. The computer 300 may read the anonymity providing program 330 a from the portable physical medium and execute the anonymity providing program 330 a.

In addition, the anonymity providing program 330 a may be stored in “another computer (or server)” connected to the computer 300 through a public line, the Internet, a LAN, a WAN or the like. The computer 300 may read the anonymity providing program 330 a from the other computer and execute the anonymity providing program 330 a.

All examples and conditional language recited herein are intended for pedagogical purposes to aid the reader in understanding the invention and the concepts contributed by the inventor to furthering the art, and are to be construed as being without limitation to such specifically recited examples and conditions, nor does the organization of such examples in the specification relate to a showing of the superiority and inferiority of the invention. Although the embodiments of the present invention have been described in detail, it should be understood that the various changes, substitutions, and alterations could be made hereto without departing from the spirit and scope of the invention. 

What is claimed is:
 1. An anonymizing apparatus comprising: a processor configured to: receive an instruction from a first apparatus; anonymize an anonymized part of a first data based on a type of an application program that causes the first apparatus to send the instruction; and transmit the anonymized first data to the first apparatus.
 2. The anonymizing apparatus according to claim 1, wherein the processor is further configured to: anonymize an anonymized part of a second data based on the type; and transmit the anonymized second data to the first apparatus, and when the anonymized part of the second data is same as the anonymized part of the first data, the anonymized part of the second data and the anonymized part of the second data are anonymized so as to be different from each other.
 3. The anonymizing apparatus according to claim 2, wherein the processor is further configured to: transmit information indicating positions of the first data and the second data to the first device when the anonymized part of the second data is same as the anonymized part of the first data.
 4. The anonimyzing apparatus according to claim 1, wherein the anonymized part of the first data is anonymized by replacing the anonymized part of the first data with a hash value calculated using a hash key corresponding to the types of the application program.
 5. An anonymizing method comprising: receiving an instruction from a first apparatus; anonymizing, by a processor, an anonymized part of a first data based on a type of an application program that causes the first apparatus to send the instruction; and transmitting the anonymized first data to the first apparatus.
 6. The anonymizing method according to claim 5, further comprising: anonymizing an anonymized part of a second data based on the type; and transmitting the anonymized second data to the first apparatus, wherein when the anonymized part of the second data is same as the anonymized part of the first data, the anonymized part of the second data and the anonymized part of the second data are anonymized so as to be different from each other.
 7. The anonymizing method according to claim 6, further comprising: transmitting information indicating positions of the first data and the second data to the first device when the anonymized part of the second data is same as the anonymized part of the first data.
 8. The anonimyzing method according to claim 5, wherein the anonymized part of the first data is anonymized by replacing the anonymized part of the first data with a hash value calculated using a hash key corresponding to the types of the application program.
 9. A computer-readable recording medium storing an anonymizing program that causes a computer to execute a process, the process comprising: receiving an instruction from a first apparatus; anonymizing an anonymized part of a first data based on a type of an application program that causes the first apparatus to send the instruction; and transmitting the anonymized first data to the first apparatus.
 10. The recording medium according to claim 9, wherein the process further comprising: anonymizing an anonymized part of a second data based on the type; and transmitting the anonymized second data to the first apparatus, wherein when the anonymized part of the second data is same as the anonymized part of the first data, the anonymized part of the second data and the anonymized part of the second data are anonymized so as to be different from each other.
 11. The recording medium according to claim 10, wherein the process further comprising: transmitting information indicating positions of the first data and the second data to the first device when the anonymized part of the second data is same as the anonymized part of the first data.
 12. The recording medium according to claim 9, wherein the anonymized part of the first data is anonymized by replacing the anonymized part of the first data with a hash value calculated using a hash key corresponding to the types of the application program. 